KR200371494Y1 - microwave oven having quartz tube type heater - Google Patents

Abstract

The present invention is to improve the thermal efficiency by using a quartz tube heater as the heat source when providing high temperature heat into the cavity to improve the thermal efficiency as well as to reduce the manufacturing cost of the microwave oven.

To this end, the present invention, the cavity assembly is formed in the inner space of one side, and the cavity assembly is formed in the other side of the electric chamber; A convection chamber provided on a rear side of the cavity assembly, and having at least one quartz tube heater therein and a convection fan provided to provide high temperature heat to the cavity; It is provided on the front side of the cavity assembly, and provides a microwave oven, characterized in that it comprises a door: for opening and closing the cavity.

Description

Microwave oven with quartz tube heater

The present invention relates to a microwave oven, and more particularly to a microwave oven equipped with a quartz tube heater.

In general, a microwave oven (MWO) is a device for cooking food by the heat of intermolecular friction generated by disturbing the molecular arrangement of food by using a high frequency (about 2450 MHz per second) as a heating source.

1 and 2, a conventional microwave oven is shown. As can be seen from this, the conventional microwave oven includes a cavity assembly 10 including a front plate 11 and a rear plate 13, and Cavity 12 for forming a cooking chamber into one inner space of the cavity assembly 10, an electrical equipment chamber 14 formed in the other inner space of the cavity assembly 10 to install various electrical components, and the cavity assembly ( It is comprised including the out case 20 installed in the outer side of 10).

Here, the front plate 11 forms a front surface of the cavity assembly 10 at its front surface and is equipped with a door 30 for opening and closing the inside of the cavity 12.

In addition, the out case 20 forms both sides and an upper surface of the microwave oven, and protects the cavity 12 and the electric compartment from the external environment together with the front plate 11 and the rear plate 13.

In addition, a plurality of communication holes 13a are formed in the central portion of the rear plate 13 so as to communicate with the internal space of the cavity 12, and the rear plate 13 is disposed between the rear plate 13 and the rear plate 13. A convection chamber 40 having any space is provided.

At this time, the heater 41 is provided inside the space of the convection chamber 40, and the heat generated from the heater 41 is convection into the cavity 12 on the inner surface of the convection chamber 40. The convection fan 42 is mounted on the rear surface of the convection chamber 40, and a chamber motor 43 for driving the convection fan 42 is mounted in a state in which the convection fan 42 is axially coupled to the convection fan 42. .

In addition, behind the convection chamber 40, a chamber cover 50 protecting the convection chamber 40 and the chamber motor 43 from an external environment is provided with the convection chamber 40 and the chamber motor 43. It is fixed to the rear plate 13 while wrapping.

In this case, a plurality of air suction holes 50a are formed at the rear surface of the chamber cover 50 for inflow of air from the outside.

The electrical chamber 14 includes a magnetron 14a for generating a microwave, a high voltage transformer 14b for supplying a high voltage to the magnetron 14a, and various electrical components inside the cavity assembly 10. Various components including a cooling fan 14c for cooling and a fan motor 14d for driving the blowing fan 14c are mounted.

At this time, the fan motor 14d is fixedly mounted to one inner side surface of the rear plate 13, and a shroud is mounted around the blower fan 14c to guide the flow of air.

However, the conventional microwave oven configured as described above has a problem in that a high manufacturing cost is required because an expensive sheath heater is used as the heater 41 installed in the rear convection chamber 40.

In addition, the heater 41 has a problem in that the dissatisfaction of the consumer is caused due to the high cost for replacing the heater 41.

The present invention was devised to solve the above problems, and has a low-cost quartz tube heater in the convection chamber to heat the interior of the cavity with radiant heat generated by using a quartz tube to reduce the manufacturing cost while improving heat resistance and thermal efficiency. Its purpose is to provide a microwave oven that can be improved.

1 is an exploded perspective view schematically showing the general structure of a microwave oven according to the prior art;

2 is a plan view schematically showing the internal structure of FIG.

3 is an exploded perspective view schematically showing the structure of a microwave oven according to an embodiment of the present invention;

4 is a plan view schematically showing the internal structure of FIG.

Explanation of symbols on the main parts of the drawings

110: cavity assembly 111: front plate

112: cavity 112a: air inlet

112b: air outflow hole 113: rear plate

113a: Communication hole 114: Battlefield room

114a: magnetron 114b: high voltage transformer

114c: blower fan 114d: fan motor

120: Out case 120a: Air exhaust hole

130: door 140: convection chamber

141: heater 142: convection fan

143: chamber motor 150: chamber cover

150a: air suction hole

In order to achieve the above object, the present invention is the cavity assembly is formed in the inner space of the one side and the cavity assembly is formed in the other side space; A convection chamber provided on a rear side of the cavity assembly, and having at least one quartz tube heater therein and a convection fan provided to provide high temperature heat to the cavity; It is provided on the front side of the cavity assembly, and provides a microwave oven, characterized in that it comprises a door: for opening and closing the cavity.

Hereinafter, a preferred embodiment of the microwave oven according to the present invention will be described with reference to the accompanying drawings.

3 is an exploded perspective view schematically showing the structure of a microwave oven according to an embodiment of the present invention, Figure 4 is a plan view schematically showing the internal structure of FIG.

3 and 4, in the microwave oven according to the embodiment of the present invention, the cavity 112 is formed in the inner space of one side and the cavity assembly 110 in which the electric chamber 114 is formed in the other space. And a convection fan provided at the rear side of the cavity assembly 110 and having a quartz tube heater 141 therein and a convection fan 142 provided to provide high temperature heat to the cavity 112. It is configured to include a chamber 140 and a door 130 provided at the front side of the cavity assembly 110 to open and close the cavity 112.

Here, the cavity assembly 110 is composed of a front plate 111 and a rear plate 113, and the front plate 111 and the rear side of the cavity assembly 110 to form both sides and the upper surface of the microwave oven. Along with the plate 113, an outer case 120 is provided to protect the cavity 112 and the electric compartment 114 from an external environment.

In addition, a plurality of communication holes 113a are formed in the front side rear plate 113 of the convection fan 142 so as to communicate with the internal space of the cavity 112, and the rear surface of the rear plate 113 is the convection chamber ( 140 is installed to have any space between the rear plate 113 and the rear plate 113.

In addition, the convection fan 142 is installed in the inner center of the convection chamber 140, the quartz tube heater 141 is installed on the outside of the convection fan 142 so as to be installed without interference with the convection fan 142. The lower part is installed in a straight shape each having a length in the transverse direction.

In addition, a chamber motor 143 for driving the convection fan 142 is mounted on the rear surface of the convection chamber 140 in a state in which the convection fan 142 is axially coupled.

In addition, behind the convection chamber 140, a chamber cover 150 protecting the convection chamber 140 and the chamber motor 143 from an external environment may protect the convection chamber 140 and the chamber motor 143. It is fixed to the rear plate 113 while wrapping.

At this time, a plurality of air suction holes 150a are formed at the rear surface of the chamber cover 150 for inflow of air from the outside.

On the other hand, the electrical chamber 114 is a magnetron (114a) for generating a microwave, a high voltage transformer (114b) for supplying a high voltage to the magnetron (114a), and various electrical components inside the cavity assembly (110) Various components including a cooling fan 114c for cooling and a fan motor 114d for driving the blowing fan 114c are mounted.

Hereinafter, the operation of the microwave oven according to the embodiment of the present invention configured as described above will be described in detail.

First, if a user's selection is made to perform the convection function, the quartz tube heater 141 generates heat and radiates radiant heat, and rotation of the convection fan 142 is driven by driving the chamber motor 143.

As a result, the outside air is introduced through each of the air intake holes 113a formed in the rear plate 113, and the cavity is introduced into the interior space of the convection chamber 140 and the hot air is heated in the convection chamber 140. The air is forced into the air 112, and the food in the cavity 112 is cooked by high temperature heat.

At this time, the high temperature heat is generated as radiant heat generated by heating the quartz tube of the quartz tube heater 141. The quartz tube heater 141 has excellent heat resistance due to the characteristics of the quartz tube, which has good thermal efficiency, and rapid quenching and quenching. This has the advantage of being easy.

On the other hand, if the user wants to perform the cooking using the microwave fan motor 114d provided in the electric compartment 114 for heat dissipation of the magnetron 114a and the high voltage transformer 114b and air circulation into the cavity 112. While driving of the blowing fan 114c is rotated.

Accordingly, when the air suction force is generated, the outside air of the microwave oven is sucked from the air suction hole 150a into the space in which the fan motor 114d and the blowing fan 114c are mounted.

Then, the air sucked as described above is discharged to the site where the magnetron 114a in the space forming the electric chamber 114 is guided by the output of the blowing fan 114c and the shroud, the magnetron ( The temperature of 114a) is reduced.

At this time, since the magnetron 114a generates a microwave for cooking food in the cavity 112, a lot of heat is generated, but it is understood that heat is radiated by the flow of air.

In addition, the air passing through the magnetron 114a flows to the front side of the interior of the space forming the electric compartment 114, and subsequently flows into the cooking chamber through each air inlet hole 112a formed in the cavity 112. do.

Here, the air introduced into the cavity 112 includes a plurality of air outlet holes 112b formed in the cavity 112 after the inside of the cavity 112 includes the smell and moisture generated when cooking the food. Through the outflow to the cooking chamber.

Subsequently, the air is discharged to the outside of the microwave oven through the air discharge hole 120a formed at the side of the outer case 120.

On the other hand, although not shown, the quartz tube heater 141 may be installed in a straight shape having a length in the longitudinal direction on the left and right sides of the convection fan 142, respectively.

As described above, the present invention has the effect of reducing the manufacturing cost by using an inexpensive quartz tube heater as a heater that generates radiant heat to provide high temperature heat into the cavity.

And, by using the quartz tube heater, due to the characteristics of the quartz tube is excellent in heat resistance, rapid heat and rapid cooling is effective to improve the thermal efficiency of the heater.

Claims (5)

A cavity assembly formed with an inner space of one side and a cavity assembly having an electric field chamber as the other space; A convection chamber provided on a rear side of the cavity assembly, and having at least one quartz tube heater therein and a convection fan provided to provide high temperature heat to the cavity; And a door provided at the front side of the cavity assembly to open and close the cavity. The method of claim 1, The quartz tube heater, Microwave oven, characterized in that provided in the outer space of the convection fan to be installed without interference with the convection fan. The method of claim 2, The quartz tube heater, Microwave oven characterized in that the upper and lower sides of the convection fan is provided in a straight shape having a length in the transverse direction, respectively. The method of claim 2, The quartz tube heater, Microwave oven, characterized in that the left and right sides of the convection fan is provided in a straight shape having a length in the longitudinal direction, respectively. The method of claim 1, The convection fan, the microwave oven, characterized in that provided in the center of the convection chamber.